KR20090128962A - Ubiquitous healthcare service using forearm-worn integrated biotelemetry system - Google Patents

Abstract

PURPOSE: A ubiquitous service using a forearm-wearable bio signal measurement system is provided to enable quick treatment for a patient through prescription of a medical team of a central medical center, thereby reducing death probability. CONSTITUTION: By a forearm-wearable bio signal measurement system(200) and a video/voice transceiving device(300) of a rescue person, a health state of a patient(100) is measured under remote diagnosis environment. The measured information is transmitted to a remote central medical center server(800) through remote communication. By a dedicated program, reference and analysis of a specialized medical team(900) are conducted in a remote place. Prescription and direction of the specialized medical team are transmitted to the bio signal measurement system again.

Description

 U-health service using forearm-mounted biosignal measurement system {UBIQUITOUS®HEALTHCARE SERVICE USING FOREARM-WORN INTEGRATED BIOTELEMETRY SYSTEM}

 The present invention relates to a telemedicine service using a forearm-mounted ubiquitous biosignal measurement system, and more particularly, after measuring health information of a subject (emergency transfer patient, a telemedicine patient), and using a ubiquitous network technology. The present invention relates to a forearm-mounted ubiquitous biosignal measurement system and a telemedicine service method that transmit measurement information to a remote location and receive a prescription and instructions from an expert, thereby enabling a quick response according to a subject's condition.

  Recently, the society has been increasing incidence of disease and emergence of emergency patients due to aging and westernized eating habits and various pollutants. The annual number of emergency patient transfers to the Central 119 Rescue Team is one million, and the possibility of an emergency situation is increasing due to an increase in the elderly population and the number of acute and chronic diseases.

 Emergency medical systems can be divided into pre-hospital stages and hospital stages. In the pre-hospital phase, the transfer and pre-hospital care of emergency patients are carried out, and in the hospital phase, emergency room care and inpatient care are carried out. The most important step is the pre-hospital phase, where rapid on-site arrivals and rapid patient transfers and appropriate emergency care should be carried out in the event of an emergency.

 In Korea's emergency medical system, when we looked at the rapidity of transfers at the pre-hospital stage and the adequacy of emergency treatment during the transfer, the rapidity of transfers was 43.2% and totaled within 7 minutes. 67.6% of the total was 82.8% within 10 minutes. This is similar to the UK and Japan, showing that the speed of transport in Korea is not a big problem.

 However, in the case of adequacy of first aid in the field and in transit at the pre-hospital stage, a 1997 study found that 33.8% of the 119 paramedics were deemed necessary for first aid. Only 36.8% of the patients received the necessary care. In addition, the experience of emergency medical specialists who are exposed to ambulances in emergency departments shows that very rare cases of emergency treatment, such as ventricular defibrillation, extend the life of emergency patients.

 As such, the speed of transfer is somewhat close to the level of developed countries, but weak in terms of the adequacy of first aid in the field and during the pre-hospital phase. This was due to the fact that the scope of first aid for rescuers was limited in the emergency medical system, but the tools and environment for proper first aid were not established.

 The technical problem to be achieved by the present invention is to introduce a more systematic and efficient telemedicine system using the ubiquitous healthcare technology to enable quick and appropriate treatment according to the health status of the subject (emergency transfer patient, remote medical patient) To improve the rate, to invent and service the most optimal type of equipment.

 In the present invention, a ubiquitous computing technology capable of exchanging information by connecting to a network at any time is introduced into such health management, and a health management system and service for a target person are applied as a means of solving a problem.

U-health service using the forearm-mounted biosignal measurement system according to the present invention,

As a means to provide u-health services to a subject,

Forearm-mounted bio-signal measuring equipment used by the target person for emergency transportation or remote medical treatment of the target person,

Consists of video measurement equipment that the rescuer uses to photograph the visual state of the subject,

The measured health information of the subject is transmitted to a remote central medical center using ubiquitous networking technologies such as CDMA, HSDPA, and WiBro.

It consists of receiving the appropriate prescription from the medical staff of the central medical center.

Forearm-mounted biosignal measurement system for use in emergency transportation or telemedicine,

Sensor unit consisting of biometric sensors for measuring blood pressure, blood sugar, electrocardiogram, body temperature, blood analysis, oxygen saturation,

A central processing unit which performs an algorithm for determining a state of a target person using a signal measured from a sensor;

Finally, the communication unit for implementing the ubiquitous network by transmitting the measured information and the analyzed information to the outside,

It consists of.

Among the sensors that enter the forearm-mounted biosignal measurement system,

Body temperature is measured in the subject's armpits,

ECG is measured on the torso of the subject,

Oxygen saturation is measured on the subject's left finger,

Automatic winding of cables inside the forearm mounted biosignal measurement system for quick sensor attachment,

Body temperature, electrocardiogram, and oxygen saturation are measured using disposable patch type sensors (for temperature and ECG) or multi-finger finger clip sensors (for oxygen saturation).

Video and audio transmission and reception equipment used by rescuers,

Wear it on the head of a rescuer with goggles, glasses or headbands.

It is possible to measure the image of the target person from the point of view of the rescuer,

After transmitting the measured video signal to the forearm device of the target person using a short range wireless module,

It is transmitted to the remote place using the communication unit of the forearm type device.

Video and audio transmission and reception equipment used by rescuers,

In addition to the visual state of the subject,

It also enables magnified image transmission of affected areas by attaching and detaching the audio and video transmission and reception module.

The communication unit for transmitting the health status of the target person,

As wireless communication technology for ubiquitous network, WirelessLAN, CDMA, HSDPA, Wibro

Include.

  As described above, the U-Health service using the forearm-mounted biosignal measurement system of the present invention measures the health status of the subject during emergency transfer or remote medical treatment, and the result or (and) interpretation thereof through the ubiquitous network. In order to provide health care services, the patient is transferred to the central medical center, and the rescuer receives the appropriate prescription from a remote medical specialist to improve the safety of the target person.

 These systems and services enable efficient and immediate remote health care of the target person and reduce the likelihood of the person's death through quick action in an emergency.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic diagram of a u-health service using a forearm-mounted biosignal measurement system according to an exemplary embodiment of the present invention.

As shown in FIG. 1, the u-health service using the forearm-mounted biosignal measurement system according to an embodiment of the present invention,

On-site 150 during the emergency or remote medical care, the subject 100 of the health care measurement, the forearm-mounted bio-signal measurement system 200 to be worn by the subject, the video voice transmission and reception worn by the rescuer 400 and the rescuer of the target person Device 300, short-range wireless communication method 500 of the video voice transmission and reception device implemented by Bluetooth, Zigbee, remote communication implemented in CDMA, WiBro, HSDPA, etc. for data transmission from a forearm mounted bio-signal measurement system to a remote server Method 600, a remote central medical center server 800, and a remote medical professional 900 and the PC to perform data inquiry and analysis.

 Using the forearm-mounted bio-signal measurement system 200 and the rescuer's video-audio transceiving device 300, the health status of the target person 100 is measured during an emergency transfer or in a remote medical care environment 150, and the measured blood pressure, blood sugar, and electrocardiogram are measured. , Body temperature, oxygen saturation, blood analysis, patient image is transmitted to the remote central medical center server 800 using the telecommunications (600), and then using a dedicated program to query the remote medical specialists 900 Analyze and transmit the prescription and instructions of the professional medical staff 900 to the forearm-mounted bio-signal measurement system 200 and transmits it to the video and audio transmission and reception equipment 300 to allow the rescuer to perform the instructions and prescription. . Data recording to the remote server can be post-analyzed or informed by the data recorded later.

FIG. 2A is a perspective view of the forearm mounted biosignal measurement system 200 shown in FIG. 1.

FIG. 2B is a plan view of the forearm mounted biosignal measurement system 200 of FIG. 2A.

The forearm-mounted biosignal measurement system 200 is a form in which the main body 220 of the measuring instrument is mounted on a pressure cuff 210 for measuring blood pressure. The main body 220 of the measuring device has a patch-type body temperature sensor 230 and a patch-type core conduction sensor 240 and a finger clip sensor 250 for measuring oxygen saturation to measure body temperature, electrocardiogram and oxygen saturation through cables. It is connected. In addition, blood glucose and blood analysis are possible through blood collection using the disposable strip sensor 260.

The main body 220 of the measuring instrument also includes a button 222 and a display unit 221 for displaying the measurement result for the user interface.

FIG. 2C is a perspective view of the meter body 220 of the forearm mounted biosignal measurement system 200 of FIG. 2A.

The measuring instrument body 220 has an insertion hole 261 for inserting a blood analysis strip sensor 260 and a connector 224 for connecting with a cuff for blood pressure measurement, and an automatic winding type for quick detachment and measurement of the sensor in an emergency transport environment. To make a cable (223), it was invented in a structure that can connect the disposable patch-type body temperature sensor 230 and the disposable patch-type ECG sensor 240 to prevent cross-infection of the target human.

3A is a plan view of a disposable patch-type ECG sensor 240.

The electrocardiogram measurement used in the present invention is a 12-channel electrocardiogram used in the clinic, and three electrodes 242 and six record lead electrodes 243 for the limb lead are required for measurement. In order to shorten the detachment time of the electrode during the emergency transfer to the maximum, the disposable AgAgCl electrodes (242, 243) were placed at each measurement position and made a single patch 240 as a whole to enable fast detachment, measuring instrument body 220 ) Is connected through the connector 241, and considering the size of the target human rib cage, such as children, the elderly, women, men can be used to produce a single-use disposable patch-type sensor of various units.

3B is a top view of the disposable patch type temperature sensor 230.

Built-in temperature sensor 232 in the center and made a patch 230 to prevent cross-infection of the target human, it was invented to enable rapid detachment and continuous temperature measurement. The measuring instrument body 220 is connected through a connector 231.

FIG. 4 is an exemplary diagram of a video-voice transmitting / receiving apparatus 300 worn by the rescuer 400 and the rescuer of FIG. 1.

Dedicated headband 310 or glasses 320 attached to the small wireless video audio transmission and reception module 330 and the ear can be delivered to the rescuer 400 through the prescription and instructions of the expert through the earphone 340 mounted on the ear portion. To make it possible.

FIG. 5A is a detailed view of the headband 310 type video audio transmitting / receiving apparatus of FIG. 4.

The dedicated headband 310 has a connector 311 to which the small wireless video audio transmission / reception module 331 can be connected, and the connector 311 is connected to the earphone 340 of the ear-receiving portion by a line 312. With such a removable structure, the rescuer can detach and place it on the affected part according to the prescription and instructions, and can be used to transmit the enlarged image of the affected part.

FIG. 5B is a detailed view of the small wireless image transmission / reception module 331 and the headband connector 311 of FIG. 5A.

The connector has a contact portion 332 for voice signal transmission, it is possible to easily detachable through the groove of the concave-convex (333) type.

1 is a schematic diagram of a service according to an embodiment of the present invention;

FIG. 2A is a perspective view of the forearm mounted biosignal measurement system 200 of FIG. 1.

FIG. 2B is a plan view of the forearm mounted biosignal measurement system 200 of FIG. 2A.

FIG. 2C is a perspective view of the meter body 220 of FIG. 2A

3A is a plan view of a disposable patch-type ECG sensor 240

3B is a top view of the disposable patch type temperature sensor 230

4 is an exemplary diagram of a video-voice transmitting and receiving device 300 worn by a rescuer 400 and a rescuer of a target person.

Figure 5a is a detailed view of the headband 310 type video audio transmission and reception apparatus of FIG.

5B is a detailed view of the small wireless image transmission / reception module 331 and the headband connector 311 of FIG. 5A.

** Explanation of symbols on the main parts of the drawing **

100: target 200: forearm mounted bio-signal measurement system

300: wireless video sound transmission and reception device 400: rescue workers, medical staff

500: short range wireless communication 600: long range wireless communication

700: network 800: remote central medical center server

900: telemedicine

Claims (5)

As a means for telemedicine of a subject, It is a bio signal measuring equipment mounted on the forearm. Measure the health information of the subject, Through the communication network, Deliver the information of the target person to the central medical center, Prescriptions and instructions from telemedicine Received Systems and Services. According to claim 1, In the U-health service using the forearm-mounted biosignal measurement system Headband, glasses, goggles Using wireless video audio transceiver Provide visual medical information, A system for receiving acoustic prescriptions and instructions According to claim 1, In the biological signal measuring equipment mounted on the forearm For fast biosignal measurement of the subject, use a self-winding cable or Instrumentation using patch type sensors The apparatus of claim 2, wherein Using removable video audio transmission / reception module, It is used in close proximity to the target subject, such as the affected image of the subject, Image measuring method and service The method of claim 3, wherein in the patch-type sensor An inverted triangle Limb Lead electrode for 12-channel ECG measurement, Arrangement type of Precordial Lead electrode Patch type temperature sensor and service for body temperature measurement

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